Entomopathogenic fungus Akanthomyces muscarius (Hypocreales: Cordycipitaceae) strain IMI 268317 colonises on tomato leaf surface through conidial adhesion and general and microcycle conidiation

IF 4.6 2区 生物学 Q1 MYCOLOGY
Oumi Nishi, Hirotoshi Sushida, Y. Higashi, Y. Iida
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引用次数: 2

Abstract

ABSTRACT The entomopathogenic fungus Akanthomyces muscarius strain IMI 268317, previously known as Lecanicilliummuscariumand Verticillium lecanii, is currently used as a microbial insecticide to protect tomatoes from serious leaf-inhabiting pests in greenhouses. However, its persistence on tomato leaves has been unidentified. Understanding the events and processes of phyllosphere colonisation by this strain should help in developing its practical applications. This study assessed the epiphytic abilities of this strain on tomato leaves in humid conditions, simulating closed greenhouse environments. Conidia applied on tomato leaflets strongly adhered 12 h after inoculation. The mucilage-like materials were found around the germinated conidia after 3 days after inoculation (dpi), which possibly strengthened the adhesion. A total of 15% of conidia germinated at 3 dpi, of which 2% formed typical conidium or an enlarged structure on germ-tube tips. Many conidia were produced on phialide tips that branched from elongated hyphae at 7 dpi; however, invasion into leaf tissue was not observed. On the leaflets, inoculated conidia suspensions of 1 × 105 and 1 × 106 conidia/mL, colony forming units increased 52.6 and 8.8 folds from 0 to 14 dpi, respectively. These results suggested that A. muscarius strain IMI 268317 has high epiphytic abilities on tomato leaflets in a humid condition.
昆虫病原真菌Akanthomyces muscarius(下creales: Cordycipitaceae)菌株IMI 268317通过分生孢子粘附和一般和微循环分生作用在番茄叶片表面定植
摘要昆虫病原真菌Akantomyces muscarius菌株IMI 268317,以前被称为Lecanicilliummuscariman和Verticillium lecanii,目前被用作一种微生物杀虫剂,用于保护番茄免受温室中严重的叶性害虫的侵害。然而,它在番茄叶片上的持久性尚未得到证实。了解该菌株在叶层定植的事件和过程应有助于开发其实际应用。本研究模拟封闭温室环境,评估了该菌株在潮湿条件下对番茄叶片的附生能力。接种后12小时,将Conidia涂抹在番茄小叶上,使其牢固粘附。接种3天后,在发芽的分生孢子周围发现了粘液状物质,这可能增强了粘附性。共有15%的分生孢子在3 dpi时发芽,其中2%在芽管尖端形成典型分生孢子或扩大的结构。在7 dpi时,许多分生孢子在从细长菌丝分支出来的药瓶内酯顶端产生;然而,没有观察到对叶片组织的入侵。在接种1×105和1×106分生孢子/mL的分生孢子悬浮液的小叶上,从0到14dpi,菌落形成单位分别增加了52.6和8.8倍。这些结果表明,A.muscarius菌株IMI 268317在潮湿条件下对番茄小叶具有较高的附生能力。
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来源期刊
Mycology
Mycology Medicine-Infectious Diseases
CiteScore
9.10
自引率
0.00%
发文量
18
审稿时长
13 weeks
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